Abstract
Biological nitrogen fixation (BNF), the conversion of atmospheric dinitrogen gas into organic forms of N, is achieved by the microbial nitrogenase enzyme complex. Symbiosis with N-fixing (diazotrophic) bacteria can provide plants with sufficient levels of this essential macronutrient for growth. While the symbioses between rhizobia and legumes as well as between Frankia and actinorhizal plants are well-known, BNF in root nodules by these bacteria is not the only way in which plants can procure fixed N. Diazotrophic endophytes, microorganisms within the plant host, can also provide significant levels of organic N and have a much broader host range than nodulating bacteria. While there is great potential for improving the sustainability of agriculture using diazotrophic endophytes, research has been limited due to the strong belief that only nodulating bacteria can alleviate host plant N-deficiency. This review describes the arguments and summarizes the data in support of the significance of endophytic N-fixation. It then proposes research directions with the aim of optimizing endophyte-host interactions for reduced reliance on chemical fertilizers.
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References
Downie JA. Legume nodulation. Curr Biol. 2014;24:R184–90.
Marchal K, Vanderleyden J. The “oxygen paradox” of dinitrogen-fixing bacteria. Biol Fertil Soils. 2000;30:363–73.
Stokstad E. The nitrogen fix. Science. 2016;353:1225–7.
Aneja VP, Blunden J, James K, Schlesinger WH, Knighton R, Gilliam W, Jennings G, Niyogi D, Cole S. Ammonia assessment from agriculture: U.S. status and needs. J Environ Qual. 2008;37:515–20.
Olivares J, Bedmar EJ, Sanjuan J. Biological nitrogen fixation in the context of global change. Mol Plant-Microbe Interact. 2013;26:486–94.
Venkateshwaran M, Volkening JD, Sussman MR, Ane JM. Symbiosis and the social network of higher plants. Curr Opin Plant Biol. 2013;16:118–27.
Froussart E, Bonneau J, Franche C, Bogusz D. Recent advances in actinorhizal symbiosis signaling. Plant Mol Biol. 2016;90:613–22.
Masson-Boivin C, Giraud E, Perret X, Batut J. Establishing nitrogen-fixing symbiosis with legumes: how many rhizobium recipes? Trends Microbiol. 2009;17:458–66.
Santi C, Bogusz D, Franche C. Biological nitrogen fixation in non-legume plants. Ann Bot. 2013;111:743–67.
Shulz B, Boyle C. What are endophytes? Soil Biol. 2005;9:1–13.
Sachs JL, Mueller UG, Wilcox TP, Bull JT. The evolution of cooperation. Q Rev Biol. 2004;79:135–60.
Carvalho TL, Ballesteros HG, Thiebaut F, Ferreira PC, Hemerly AS. Nice to meet you: genetic, epigenetic and metabolic controls of plant perception of beneficial associative and endophytic diazotrophic bacteria in non-leguminous plants. Plant Mol Biol. 2016;90:561–74.
Hurek T, Handley LL, Reinhold-Hurek B, Piche Y. Azoarcus grass endophytes contribute fixed nitrogen to the plant in an unculturable state. Mol Plant-Microbe Interact. 2002;15:233–42.
Welbaum GE, Sturz AV, Dong Z, Nowak J. Endophytic nitrogen fixation in sugarcane: present knowledge and future applications. Plant Soil. 2003;252:139–49.
Peng G, Zhang W, Luo H, Xie H, Lai W, Tan Z. Enterobacter oryzae sp. nov., a nitrogen-fixing bacterium isolated from the wild rice species Oryza latifolia. Int J Syst Evol Microbiol. 2009;59:1650–5.
Caballero-Mellado J, Martinez-Aguilar L, Paredes-Valdez G, Estrada-de Los Santos P. Burkholderia unamae sp. nov., an N2-fixing rhizospheric and endophytic species. Int J Syst Evol Microbiol. 2004;54:1165–72.
Montanez A, Abreu C, Gill PR, Hardarson G, Sicardi M. Biological nitrogen fixation in maize (Zea mays L.) by N-15 isotope-dilution and identification of associated culturable diazotrophs. Biol Fertil Soils. 2009;45:253–63.
Reiter B, Burgmann H, Burg K, Sessitsch A. Endophytic nifH gene diversity in African sweet potato. Can J Microbiol. 2003;49:549–55.
Lopez BR, Bashan Y, Bacilio M. Endophytic bacteria of Mammillaria Fraileana, an endemic rock-colonizing cactus of the southern Sonoran Desert. Arch Microbiol. 2011;193:527–41.
Davis SC, Parton WJ, Dohleman FG, Smith CM, Del Grosso S, Kent AD, DeLucia EH. Comparitive biogeochemical cycles of bioenergy crops reveal nitrogen-fixation and low greenhouse gas emissions in a Miscanthus x giganteus agro-ecosystem. Ecosystems. 2010;13:144–56.
DeLuca TH, Zackrisson O, Gundale MJ, Nilsson MC. Ecosystem feedbacks and nitrogen fixation in boreal forests. Science. 2008;320:1181.
Dalton DA, Kramer S, Azios N, Fusaro S, Cahill E, Kennedy C. Endophytic nitrogen fixation in dune grasses (Ammophila arenaria and Elymus mollis) from Oregon. FEMS Microbiol Ecol. 2004;49:469–79.
Jimenez-Salgado T, Fuentes-Ramirez LE, Tapia-Hernandez A, Mascarua-Esparza MA, Martinez-Romero E, Caballero-Mellado J. Coffea arabica L., a new host plant for Acetobacter diazotrophicus, and isolation of other nitrogen-fixing acetobacteria. Appl Environ Microbiol. 1997;63:3676–83.
Rout ME, Chrzanowski TH, Westlie TK, DeLuca TH, Callaway RM, Holben WE. Bacterial endophytes enhance competition by invasive plants. Am J Bot. 2013;100:1726–37.
Doty SL, Dosher MR, Singleton GL, Moore AL, van Aken B, Stettler RF, Strand SE, Gordon MP. Identification of an endophytic Rhizobium in stems of Populus. Symbiosis. 2005;39:27–36.
Doty SL, Oakely B, Xin G, Kang JW, Singleton G, Khan Z, Vajzovic A, Staley JT. Diazotrophic endophytes of native black cottonwood and willow. Symbiosis. 2009;47:23–33.
Xin G, Zhang G, Kang JW, Staley JT, Doty SL. A diazotrophic, indole-3-acetic acid-producing endophyte from wild cottonwood. Biol Fertil Soils. 2009;45:669–74.
Boddey RM. Biological nitrogen fixation in sugarcane: a key to energetically viable biofuel production. CRC Crit Rev Plant Sci. 1995;14:263–79.
Reinhold-Hurek B, Hurek T. Life in grasses: diazotrophic endophytes. Trends Microbiol. 1998;6:139–44.
Boddey RM, Polidora JC, Resende AS, Alves BJR, Urquiaga S. Use of the 15N natural abundance technique for the quantification of the contribution of N2 fixation to sugarcane and other grasses. Aust J Plant Physiol. 2001;28:889–95.
Vessey JK. Plant growth promoting rhizobacteria as biofertilizers. Plant Soil. 2003;255:571–86.
Dobereiner J. Biological nitrogen fixation in the tropics: social and economic contributions. Soil Biol Biochem. 1997;29:771–4.
Urquiaga S, Xavier RP, de Morais RF, Batista RB, Schultz N, Leite JM, Sa JM, Barbosa KP, de Resende AS, Alves BJR, Boddey RM. Evidence from field nitrogen balance and 15N natural abundance data for the contribution of biological N2 fixation to Brazilian sugarcane varieties. Plant Soil. 2012;356:5–21.
de Morais RF, Quesada DM, Reis VM, Urquiaga S, Alves BJR, Boddey RM. Contribution of biological nitrogen fixation to Elephant grass (Pennisetum purpureum Schum.). Plant Soil. 2012;356:23–34.
Sevilla M, Burris RH, Gunapala N, Kennedy C. Comparison of benefit to sugarcane plant growth and 15N2 incorporation following inoculation of sterile plants with Acetobacter diazotrophicus wild-type and Nif- mutant strains. Mol Plant-Microbe Interact. 2001;14:358–66.
Iniguez AL, Dong Y, Triplett EW. Nitrogen fixation in wheat provided by Klebsiella pneumoniae 342. Mol Plant-Microbe Interact. 2004;17:1078–85.
Elbeltagy A, Nishioka K, Sato T, Suzuki H, Ye B, Hamada T, Isawa T, Mitsui H, Minamisawa K. Endophytic colonization and in planta nitrogen fixation by a Herbaspirillum sp. isolated from wild rice species. Appl Environ Microbiol. 2001;67:5285–93.
Anand R. Endophytic colonization and nitrogen fixation by Paenibacillus polymyxa in association with lodgepole pine and western red cedar. Vancouver, BC: University of British Columbia; 2010.
Anand R, Chanway CP. N2-fixation and growth promotion in cedar colonized by an endophytic strain of Paenibacillus polymyxa. Biol Fertil Soils. 2013:235–9. doi:10.1007/s00374-012-0735-9.
Buren S, Young EM, Sweeny EA, Lopez-Torrejon G, Veldhuizen M, Voigt CA, Rubio LM. Formation of Nitrogenase NifDK tetramers in the mitochondria of Saccharomyces cerevisiae. ACS Synth Biol. 2017;6(6):1043–55.
Rogers C, Oldroyd GE. Synthetic biology approaches to engineering the nitrogen symbiosis in cereals. J Exp Bot. 2014;65:1939–46.
Khan Z, Guelich G, Phan H, Redman RS, Doty SL. Bacterial and yeast endophytes from poplar and willow promote growth in crop plants and grasses. ISRN Agron. 2012; doi:10.5402/2012/890280.
Knoth J, Kim S-H, Ettl G, Doty SL. Effects of cross host species inoculation of nitrogen-fixing endophytes on growth and leaf physiology of maize. GCB Bioenergy. 2013;5:408–18.
Kandel S, Herschberger N, Kim S-H, Doty SL. Diazotrophic endophytes of poplar and willow promote growth of rice plants in nutrient-limited conditions. Crop Sci. 2015;55:1765–72.
Khan Z, Kandel S, Ramos D, Ettl GJ, Kim S-H, Doty SL. Increased biomass of nursery-grown Douglas-fir seedlings upon inoculation with diazotrophic endophytic consortia. Forests. 2015;6:3582–93.
Mahanty T, Bhattacharjee S, Goswami M, Bhattacharyya P, Das B, Ghosh A, Tribedi P. Biofertilizers: a potential approach for sustainable agriculture development. Environ Sci Pollut Res Int. 2017;24:3315–35.
Timmusk S, Behers L, Muthoni J, Muraya A, Aronsson AC. Perspectives and challenges of microbial application for crop improvement. Front Plant Sci. 2017;8:49.
Gallon JR. The oxygen sensitivity of nitrogenase: a problem for biochemists and microorganisms. Trends Biochem Sci. 1981;6:19–23.
Mylona P, Pawlowski K, Bisseling T. Symbiotic nitrogen fixation. Plant Cell. 1995;7:869–85.
Boyd ES, Costas AM, Hamilton TL, Mus F, Peters JW. Evolution of molybdenum nitrogenase during the transition from anaerobic to aerobic metabolism. J Bacteriol. 2015;197:1690–9.
Poole RK, Hill S. Respiratory protection of nitrogenase activity in Azotobacter Vinelandii—roles of the terminal oxidases. Biosci Rep. 1997;17:303–17.
Gallon JR. Reconciling the incompatible – N-2 fixation and O-2. New Phytol. 1992;122:571–609.
Bergman B, Sandh G, Lin S, Larsson J, Carpenter EJ. Trichodesmium—a widespread marine cyanobacterium with unusual nitrogen fixation properties. FEMS Microbiol Rev. 2013;37:286–302.
Goebel NL, Turk KA, Achilles KM, Paerl R, Hewson I, Morrison AE, Montoya JP, Edwards CA, Zehr JP. Abundance and distribution of major groups of diazotrophic cyanobacteria and their potential contribution to N(2) fixation in the tropical Atlantic Ocean. Environ Microbiol. 2010;12:3272–89.
Berman-Frank I, Lundgren P, Chen YB, Kupper H, Kolber Z, Bergman B, Falkowski P. Segregation of nitrogen fixation and oxygenic photosynthesis in the marine cyanobacterium Trichodesmium. Science. 2001;294:1534–7.
Setubal JC, dos Santos P, Goldman BS, Ertesvag H, Espin G, Rubio LM, Valla S, Almeida NF, Balasubramanian D, Cromes L, Curatti L, Du Z, Godsy E, Goodner B, Hellner-Burris K, Hernandez JA, Houmiel K, Imperial J, Kennedy C, Larson TJ, Latreille P, Ligon LS, Lu J, Maerk M, Miller NM, Norton S, O'Carroll IP, Paulsen I, Raulfs EC, Roemer R, Rosser J, Segura D, Slater S, Stricklin SL, Studholme DJ, Sun J, Viana CJ, Wallin E, Wang B, Wheeler C, Zhu H, Dean DR, Dixon R, Wood D. Genome sequence of Azotobacter vinelandii, an obligate aerobe specialized to support diverse anaerobic metabolic processes. J Bacteriol. 2009;191:4534–45.
James EK, Olivares FL. Infection and colonization of sugarcane and other graminacious plants by endophytic diazotrophs. Crit Rev Plant Sci. 1998;17:77–119.
Sprent JI, James EK. N2-fixation by endophytic bacteria: questions of entry and operation. In: Fendrik I, del Gallo M, Vanderleyden J, de Zamaroczy M, editors. Azospirillum VI and related microorganisms. Berlin: Springer; 1995. p. 15–30.
Flemming HC, Wingender J, Szewzyk U, Steinberg P, Rice SA, Kjelleberg S. Biofilms: an emergent form of bacterial life. Nat Rev Microbiol. 2016;14:563–75.
Dong Z, Zelmer CD, Canny MJ, McCully ME, Luit B, Pan B, Faustino RS, Pierce GN, Vessey JK. Evidence for protection of nitrogenase from O2 by colony structure in the aerobic diazotroph Gluconacetobacter diazotrophicus. Microbiology. 2002;148:2293–8.
Vessey JK, Pan B. Living a grounded life: growth and nitrogenase activity of Gluconacetobacter diazotrophicus on solid media in response to culture conditions. Symbiosis. 2003;35:181–97.
Dixon R, Kahn D. Genetic regulation of biological nitrogen fixation. Nat Rev Microbiol. 2004;2:621–31.
Agron PG, Ditta GS, Helinski DR. Oxygen regulation of nifA transcription in vitro. Proc Natl Acad Sci U S A. 1993;90:3506–10.
Hurek T, Egener T, Reinhold-Hurek B. Divergence in nitrogenases of Azoarcus spp., Proteobacteria of the beta subclass. J Bacteriol. 1997;179:4172–8.
Egener T, Hurek T, Reinhold-Hurek B. Endophytic expression of nif genes of Azoarcus sp. strain BH72 in rice roots. Mol Plant-Microbe Interact. 1999;12:813–9.
Chelius MK, Triplett EW. Immunolocalization of dinitrogenase reductase produced by Klebsiella pneumoniae in association with Zea mays L. Appl Environ Microbiol. 2000;66:783–7.
Pankievicz VC, do Amaral FP, Santos KF, Agtuca B, Xu Y, Schueller MJ, Arisi AC, Steffens MB, De Souza EM, Pedrosa FO, Stacey G, Ferrieri RA. Robust biological nitrogen fixation in a model grass-bacterial association. Plant J. 2015;81:907–19.
Monteiro RA, Balsanelli E, Wassem R, Marin AM, Brusamarello-Santos LCC, Schmidt MA, Tadra-Sfeir MZ, Pankievicz VC, Cruz LM, Chubatsu LS, Pedrosa FO, Souza EM. Herbaspirillum-plant interactions: microscopical, histological and molecular aspects. Plant Soil. 2012;356:175–96.
Pankievicz VC, Camilios-Neto D, Bonato P, Balsanelli E, Tadra-Sfeir MZ, Faoro H, Chubatsu LS, Donatti L, Wajnberg G, Passetti F, Monteiro RA, Pedrosa FO, Souza EM. RNA-seq transcriptional profiling of Herbaspirillum seropedicae colonizing wheat (Triticum aestivum) roots. Plant Mol Biol. 2016;90:589–603.
Dobbelaere S, Vanderleyden J, Okon Y. Plant growth-promoting effects of diazotrophs in the rhizosphere. Crit Rev Plant Sci. 2003;22:107–49.
Hurek T, Reinhold-Hurek B, Van MM, Kellenberger E. Root colonization and systemic spreading of Azoarcus sp. strain BH72 in grasses. J Bacteriol. 1994;176:1913–23.
Lima E, Boddey RM, Dobereiner J. Quantification of biological nitrogen fixation associated with sugar cane using 15N aided nitrogen balance. Soil Biol Biochem. 1987;19:165–70.
Boddey RM, de Oliveira OC, Urquiaga S, Reis VM, de Olivares FL, Baldani VLD, Dobereiner J. Biological nitrogen fixation associated with sugar cane and rice: contributions and prospects for improvement. Plant Soil. 1995;174:195–209.
Boddey RM, Urquiaga S, Reis V, Dobereiner J. Biological nitrogen fixation associated with sugar cane. Plant Soil. 1991;137:111–7.
Urquiga S, Cruz KHS, Boddey RM. Contribution of nitrogen fixation to sugar cane: nitrogen-15 and nitrogen balance estimates. Soil Sci Soc Am J. 1992;56:105–14.
Roger PA, Ladha JK. Biological N2 fixation in wetland rice fields: estimation and contribuition to nitrogen balance. Plant Soil. 1992;141:41–55.
do Amaral FP, Pankievicz VC, Arisi AC, De Souza EM, Pedrosa F, Stacey G. Differential growth responses of Brachypodium distachyon genotypes to inoculation with plant growth promoting rhizobacteria. Plant Mol Biol. 2016;90:689–97.
Doty SL, Sher AW, Fleck ND, Khorasani M, Bumgarner R, Khan Z, Ko AWK, Kim SH, DeLuca TH. Variable nitrogen fixation in wild Populus. PLoS One. 2016;11:e0155979.
Graham, P. H., Hungria, M., and Tlusty, B. 2004. Breeding for better nitrogen fixation in grain legumes: Where do the rhizobia fit in? Online. Crop Management doi: 10.1094/CM-2004-0301-02-RV.
Bulgarelli D, Schlaeppi K, Spaepen S, Ver Loren van Themaat E, Schulze-Lefert P. Structure and functions of the bacterial microbiota of plants. Annu Rev Plant Biol. 2013;64:807–38.
Carvalho TL, Balsemao-Pires E, Saraiva RM, Ferreira PC, Hemerly AS. Nitrogen signalling in plant interactions with associative and endophytic diazotrophic bacteria. J Exp Bot. 2014;65:5631–42.
de Morais RF, Quesada DM, Reis VM, Urquiaga S, Alves BJR, Boddey RM. Contribution of biological nitrogen fixation to elephant grass (Pennisetum purpureum Schum.). Plant Soil. 2017;356:23–34.
Moyes AB, Kueppers LM, Pett-Ridge J, Carper DL, Vandehey N, O'Neil J, Frank AC. Evidence for foliar endophytic nitrogen fixation in a widely distributed subalpine conifer. New Phytol. 2016;210(2):657–68.
Bal A, Chanway CP. Evidence of nitrogen fixation in lodgepole pine inoculated with diazotrophic Paenibacillus polymyxa. Botany. 2012;90:891–6.
DeLuca TH, Zackrisson O, Nilsson MC, Sellstedt A. Quantifying nitrogen-fixation in feather moss carpets of boreal forests. Nature. 2002;419:917–20.
Rousk K, Jones DL, DeLuca TH. Moss-cyanobacteria associations as biogenic sources of nitrogen in boreal forest ecosystems. Front Microbiol. 2013;4:150.
Isebrands JG, Richardson J. Poplars and willows: trees for society and the environment. Rome: FAO/CAB; 2014.
Stettler RF. Cottonwood and the river of time: on trees, evolution, and society. Seattle: University of Washington Press; 2009.
Fox JL. Skepticism, curiosity helped to overcome microbiological dogmas. Microbe. 2014;9:355–6.
Fuqua C, Greenberg EP. Listening in on bacteria: acyl-homoserine lactone signalling. Nat Rev Mol Cell Biol. 2002;3:685–95.
Jacobs MA, Alwood A, Thaipisuttikul I, Spencer D, Haugen E, Ernst S, Will O, Kaul R, Raymond C, Levy R, Chun-Rong L, Guenthner D, Bovee D, Olson MV, Manoil C. Comprehensive transposon mutant library of Pseudomonas aeruginosa. Proc Natl Acad Sci U S A. 2003;100:14339–44.
Wetmore KM, Price MN, Waters RJ, Lamson JS, He J, Hoover CA, Blow MJ, Bristow J, Butland G, Arkin AP, Deutschbauer A. Rapid quantification of mutant fitness in diverse bacteria by sequencing randomly bar-coded transposons. MBio. 2015;6:e00306–15.
Perez-Jaramillo JE, Mendes R, Raaijmakers JM. Impact of plant domestication on rhizosphere microbiome assembly and functions. Plant Mol Biol. 2016;90:635–44.
Rosier A, Bishnoi U, Lakshmanan V, Sherrier DJ, Bais HP. A perspective on inter-kingdom signaling in plant-beneficial microbe interactions. Plant Mol Biol. 2016;90:537–48.
Knoth JL, Kim SH, Ettl GJ, Doty SL. Biological nitrogen fixation and biomass accumulation within poplar clones as a result of inoculations with diazotrophic endophyte consortia. New Phytol. 2014;201:599–609.
Busby PE, Soman C, Wagner MR, Friesen ML, Kremer J, Bennett A, Morsy M, Eisen JA, Leach JE, Dangl JL. Research priorities for harnessing plant microbiomes in sustainable agriculture. PLoS Biol. 2017;15:e2001793.
Burbano CS, Liu Y, Rosner KL, Reis VM, Caballero-Mellado J, Reinhold-Hurek B, Hurek T. Predominant nifH transcript phylotypes related to Rhizobium rosettiformans in field-grown sugarcane plants and in Norway spruce. Environ Microbiol Rep. 2011;3:383–9.
Thaweenut N, Hachisuka Y, Ando S, Yanagisawa S, Yoneyama T. Two seasons’ study on nifH gene expression and nitrogen fixation by diazotrophic endophytes in sugarcane (Saccharum spp. hybrids): expression of nifH genes similar to those of rhizobia. Plant Soil. 2011;338:435–49.
Woebken D, Burow LC, Prufert-Bebout L, Bebout BM, Hoehler TM, Pett-Ridge J, Spormann AM, Weber PK, Singer SW. Identification of a novel cyanobacterial group as active diazotrophs in a coastal microbial mat using NanoSIMS analysis. ISME J. 2012;6:1427–39.
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Doty, S.L. (2017). Endophytic N-Fixation: Controversy and a Path Forward. In: Doty, S. (eds) Functional Importance of the Plant Microbiome. Springer, Cham. https://doi.org/10.1007/978-3-319-65897-1_2
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